riak_test/tests/replication2_rt_sink_connection.erl

%% -------------------------------------------------------------------
%%
%% Copyright (c) 2013 Basho Technologies, Inc.
%%
%% This file is provided to you under the Apache License,
%% Version 2.0 (the "License"); you may not use this file
%% except in compliance with the License.  You may obtain
%% a copy of the License at
%%
%%   http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing,
%% software distributed under the License is distributed on an
%% "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
%% KIND, either express or implied.  See the License for the
%% specific language governing permissions and limitations
%% under the License.
%%
%% -------------------------------------------------------------------
%%

-module(replication2_rt_sink_connection).
-behaviour(riak_test).
-export([confirm/0]).
-include_lib("eunit/include/eunit.hrl").

-define(HB_TIMEOUT,  2000).

confirm() ->
    NumNodes = rt_config:get(num_nodes, 6),

    lager:info("Deploy ~p nodes", [NumNodes]),
    Conf = [
            {riak_repl,
             [
              %% turn off fullsync
              {fullsync_on_connect, false},
              {fullsync_interval, disabled},
              %% override defaults for RT heartbeat so that we
              %% can see faults sooner and have a quicker test.
              {rt_heartbeat_interval, ?HB_TIMEOUT},
              {rt_heartbeat_timeout, ?HB_TIMEOUT}
             ]}
    ],

    Nodes = rt:deploy_nodes(NumNodes, Conf, [riak_kv, riak_repl]),
    {ANodes, Rest} = lists:split(2, Nodes),
    {BNodes, CNodes} = lists:split(2, Rest),

    lager:info("Loading intercepts."),
    CNode = hd(CNodes),
    rt_intercept:load_code(CNode),
    rt_intercept:add(CNode, {riak_repl_ring_handler,
                            [{{handle_event, 2}, slow_handle_event}]}),

    lager:info("ANodes: ~p", [ANodes]),
    lager:info("BNodes: ~p", [BNodes]),
    lager:info("CNodes: ~p", [CNodes]),

    lager:info("Build cluster A"),
    repl_util:make_cluster(ANodes),

    lager:info("Build cluster B"),
    repl_util:make_cluster(BNodes),

    % lager:info("Waiting for cluster A to converge"),
    % rt:wait_until_ring_converged(ANodes),

    % lager:info("Waiting for cluster B to converge"),
    % rt:wait_until_ring_converged(BNodes),

    lager:info("waiting for leader to converge on cluster A"),
    ?assertEqual(ok, repl_util:wait_until_leader_converge(ANodes)),
    AFirst = hd(ANodes),

    lager:info("waiting for leader to converge on cluster B"),
    ?assertEqual(ok, repl_util:wait_until_leader_converge(BNodes)),
    BFirst = hd(BNodes),

    lager:info("Naming A"),
    repl_util:name_cluster(AFirst, "A"),

    lager:info("Naming B"),
    repl_util:name_cluster(BFirst, "B"),

    connect_clusters(AFirst, BFirst),

    enable_rt(AFirst, ANodes),

    lager:info("Adding 4th node to the A cluster"),
    rt:join(CNode, AFirst),

    [verify_connectivity(Node) || Node <- ANodes],

    verify_connectivity(CNode),

    pass.

%% @doc Verify connectivity between sources and sink.
verify_connectivity(Node) ->
    rt:wait_until(Node, fun(N) ->
                {ok, Connections} = rpc:call(N,
                                             riak_core_cluster_mgr,
                                             get_connections,
                                             []),
                lager:info("Waiting for sink connections on ~p: ~p.",
                           [Node, Connections]),
                Connections =/= []
        end).

%% @doc Connect two clusters for replication using their respective leader nodes.
connect_clusters(LeaderA, LeaderB) ->
    {ok, {_IP, Port}} = rpc:call(LeaderB, application, get_env,
                                 [riak_core, cluster_mgr]),
    lager:info("Connect cluster A:~p to B on port ~p", [LeaderA, Port]),
    repl_util:connect_cluster(LeaderA, "127.0.0.1", Port).

%% @doc Turn on Realtime replication on the cluster lead by LeaderA.
%%      The clusters must already have been named and connected.
enable_rt(LeaderA, ANodes) ->
    lager:info("Enabling RT replication: ~p ~p.", [LeaderA, ANodes]),
    repl_util:enable_realtime(LeaderA, "B"),
    repl_util:start_realtime(LeaderA, "B").
Add sink verification test. Verify that if the leader election occurs before the ring has converged, that we still connect to remote sinks. This test uses an intercept to ensure we can delay the ring events to occur until after the election. 2013-12-04 19:35:46 +00:00			`%% -------------------------------------------------------------------`
			`%%`
			`%% Copyright (c) 2013 Basho Technologies, Inc.`
			`%%`
			`%% This file is provided to you under the Apache License,`
			`%% Version 2.0 (the "License"); you may not use this file`
			`%% except in compliance with the License. You may obtain`
			`%% a copy of the License at`
			`%%`
			`%% http://www.apache.org/licenses/LICENSE-2.0`
			`%%`
			`%% Unless required by applicable law or agreed to in writing,`
			`%% software distributed under the License is distributed on an`
			`%% "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY`
			`%% KIND, either express or implied. See the License for the`
			`%% specific language governing permissions and limitations`
			`%% under the License.`
			`%%`
			`%% -------------------------------------------------------------------`
			`%%`

			`-module(replication2_rt_sink_connection).`
			`-behaviour(riak_test).`
			`-export([confirm/0]).`
			`-include_lib("eunit/include/eunit.hrl").`

			`-define(HB_TIMEOUT, 2000).`

			`confirm() ->`
			`NumNodes = rt_config:get(num_nodes, 6),`

			`lager:info("Deploy ~p nodes", [NumNodes]),`
			`Conf = [`
			`{riak_repl,`
			`[`
			`%% turn off fullsync`
			`{fullsync_on_connect, false},`
			`{fullsync_interval, disabled},`
			`%% override defaults for RT heartbeat so that we`
			`%% can see faults sooner and have a quicker test.`
			`{rt_heartbeat_interval, ?HB_TIMEOUT},`
			`{rt_heartbeat_timeout, ?HB_TIMEOUT}`
			`]}`
			`],`

Ensure riak_repl service is up across the board Trying to use the repl features before newly started nodes have riak_repl completely initialized leads to all sorts of nasty crashes and noise. Frequently it makes fullsync stuck forever, which makes a lot of the tests fail. This also tweaks the AAE fullsync tests to remove assumptions about failure stats when AAE transient errors occur. The behavior in the handling of those errors has changed recently with the introduction of soft exits. 2014-12-18 21:07:00 +00:00			`Nodes = rt:deploy_nodes(NumNodes, Conf, [riak_kv, riak_repl]),`
Add sink verification test. Verify that if the leader election occurs before the ring has converged, that we still connect to remote sinks. This test uses an intercept to ensure we can delay the ring events to occur until after the election. 2013-12-04 19:35:46 +00:00			`{ANodes, Rest} = lists:split(2, Nodes),`
			`{BNodes, CNodes} = lists:split(2, Rest),`

			`lager:info("Loading intercepts."),`
			`CNode = hd(CNodes),`
			`rt_intercept:load_code(CNode),`
			`rt_intercept:add(CNode, {riak_repl_ring_handler,`
			`[{{handle_event, 2}, slow_handle_event}]}),`

			`lager:info("ANodes: ~p", [ANodes]),`
			`lager:info("BNodes: ~p", [BNodes]),`
			`lager:info("CNodes: ~p", [CNodes]),`

			`lager:info("Build cluster A"),`
			`repl_util:make_cluster(ANodes),`

			`lager:info("Build cluster B"),`
			`repl_util:make_cluster(BNodes),`

			`% lager:info("Waiting for cluster A to converge"),`
			`% rt:wait_until_ring_converged(ANodes),`

			`% lager:info("Waiting for cluster B to converge"),`
			`% rt:wait_until_ring_converged(BNodes),`

			`lager:info("waiting for leader to converge on cluster A"),`
			`?assertEqual(ok, repl_util:wait_until_leader_converge(ANodes)),`
			`AFirst = hd(ANodes),`

			`lager:info("waiting for leader to converge on cluster B"),`
			`?assertEqual(ok, repl_util:wait_until_leader_converge(BNodes)),`
			`BFirst = hd(BNodes),`

			`lager:info("Naming A"),`
			`repl_util:name_cluster(AFirst, "A"),`

			`lager:info("Naming B"),`
			`repl_util:name_cluster(BFirst, "B"),`

			`connect_clusters(AFirst, BFirst),`

			`enable_rt(AFirst, ANodes),`

			`lager:info("Adding 4th node to the A cluster"),`
			`rt:join(CNode, AFirst),`

			`[verify_connectivity(Node) \|\| Node <- ANodes],`

			`verify_connectivity(CNode),`

			`pass.`

			`%% @doc Verify connectivity between sources and sink.`
			`verify_connectivity(Node) ->`
			`rt:wait_until(Node, fun(N) ->`
			`{ok, Connections} = rpc:call(N,`
			`riak_core_cluster_mgr,`
			`get_connections,`
			`[]),`
			`lager:info("Waiting for sink connections on ~p: ~p.",`
			`[Node, Connections]),`
			`Connections =/= []`
			`end).`

			`%% @doc Connect two clusters for replication using their respective leader nodes.`
			`connect_clusters(LeaderA, LeaderB) ->`
			`{ok, {_IP, Port}} = rpc:call(LeaderB, application, get_env,`
			`[riak_core, cluster_mgr]),`
			`lager:info("Connect cluster A:~p to B on port ~p", [LeaderA, Port]),`
			`repl_util:connect_cluster(LeaderA, "127.0.0.1", Port).`

			`%% @doc Turn on Realtime replication on the cluster lead by LeaderA.`
			`%% The clusters must already have been named and connected.`
			`enable_rt(LeaderA, ANodes) ->`
			`lager:info("Enabling RT replication: ~p ~p.", [LeaderA, ANodes]),`
			`repl_util:enable_realtime(LeaderA, "B"),`
			`repl_util:start_realtime(LeaderA, "B").`